/usr/share/cherrytree/modules/printing.py is in cherrytree 0.37.6-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#
# printing.py
#
# Copyright 2009-2016 Giuseppe Penone <giuspen@gmail.com>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301, USA.
import gtk, gobject, pango, cairo
import copy, cgi
import support, cons
BOX_OFFSET = 4
class PrintData:
"""Print Operation Data"""
text = None
layout = None
layout_is_new_line = None
layout_num_lines = None
page_breaks = None
all_lines_y = None
class PrintHandler:
"""Handler for the CherryTree Prints"""
def __init__(self, dad):
"""Instantiate Variables"""
self.dad = dad
self.active_prints = []
self.settings = None
self.page_setup = None
self.pdf_filepath = ""
def get_print_operation(self):
"""Return a Print Operation"""
print_operation = gtk.PrintOperation()
print_operation.set_show_progress(True)
if self.page_setup is None: self.page_setup = gtk.PageSetup()
if self.settings is None: self.settings = gtk.PrintSettings()
print_operation.set_default_page_setup(self.page_setup)
print_operation.set_print_settings(self.settings)
return print_operation
def run_print_operation(self, print_operation, parent):
"""Run a Ready Print Operation"""
if self.pdf_filepath: print_operation.set_export_filename(self.pdf_filepath)
print_operation_action = gtk.PRINT_OPERATION_ACTION_EXPORT if self.pdf_filepath else gtk.PRINT_OPERATION_ACTION_PRINT_DIALOG
try: res = print_operation.run(print_operation_action, parent)
except gobject.GError, ex:
support.dialog_error("Error printing file:\n%s (exception catched)" % str(ex), parent)
else:
if res == gtk.PRINT_OPERATION_RESULT_ERROR:
support.dialog_error("Error printing file (bad res)", parent)
elif res == gtk.PRINT_OPERATION_RESULT_APPLY:
self.settings = print_operation.get_print_settings()
if not print_operation.is_finished():
print_operation.connect("status_changed", self.on_print_status_changed)
def on_print_status_changed(self, operation):
"""Print Operation Status Changed"""
if operation.is_finished(): active_prints.remove(operation)
def print_text(self, window, pango_text, text_font, code_font, pixbuf_table_codebox_vector, text_window_width):
"""Start the Print Operations for Text"""
self.pango_font = pango.FontDescription(text_font)
self.codebox_font = pango.FontDescription(code_font)
self.text_window_width = text_window_width
self.table_text_row_height = self.pango_font.get_size()/pango.SCALE
self.table_line_thickness = 6
self.pixbuf_table_codebox_vector = pixbuf_table_codebox_vector
# pixbuf_table_codebox_vector is [ [ "pixbuf"/"table"/"codebox", [offset, pixbuf, alignment] ],... ]
# in tables we need to move the title from the last to the first row
for element in self.pixbuf_table_codebox_vector:
if element[0] == "table":
table = element[1][1]
table['matrix'].insert(0, table['matrix'].pop())
print_data = PrintData()
print_data.text = pango_text
print_operation = self.get_print_operation()
print_operation.connect("begin_print", self.on_begin_print_text, print_data)
print_operation.connect("draw_page", self.on_draw_page_text, print_data)
self.run_print_operation(print_operation, window)
def on_begin_print_text(self, operation, context, print_data):
"""Here we Compute the Lines Positions, the Number of Pages Needed and the Page Breaks"""
self.page_width = context.get_width()
self.page_height = context.get_height() * 1.02 # tolerance at bottom of the page
any_image_resized = False
layout_newline = context.create_pango_layout()
layout_newline.set_font_description(self.pango_font)
layout_newline.set_width(int(self.page_width*pango.SCALE))
layout_newline.set_markup(cons.CHAR_NEWLINE)
line_width, self.layout_newline_height = self.layout_line_get_width_height(layout_newline.get_line(0))
while 1:
exit_ok = True
print_data.layout = []
print_data.forced_page_break = []
print_data.layout_is_new_line = []
print_data.layout_num_lines = []
print_data.all_lines_y = []
#print "print_data.text", print_data.text
for i, text_slot in enumerate(print_data.text):
print_data.layout.append(context.create_pango_layout())
print_data.layout[-1].set_font_description(self.pango_font)
print_data.layout[-1].set_width(int(self.page_width*pango.SCALE))
is_forced_page_break = text_slot.startswith(2*cons.CHAR_NEWPAGE)
print_data.forced_page_break.append(is_forced_page_break)
print_data.layout[-1].set_markup(text_slot if not is_forced_page_break else text_slot[2:])
if text_slot == cons.CHAR_NEWLINE:
# in other cases we detect the newline from a following line
# but here we have a single layout line
print_data.layout_is_new_line.append(True)
else:
print_data.layout_is_new_line.append(False)
print_data.layout_num_lines.append(print_data.layout[-1].get_line_count())
self.y_idx = 0
print_data.page_breaks = []
curr_y = float(0)
inline_pending_height = float(0)
inline_starter = [0, 0]
for i, layout in enumerate(print_data.layout):
#print "layout", i
# text
if print_data.forced_page_break[i] and curr_y > 0:
#print "forced_page_break"
print_data.page_breaks.append(inline_starter)
curr_y = 0;
layout_line_idx = 0
while layout_line_idx < print_data.layout_num_lines[i]:
#print "layout_line_idx", layout_line_idx
layout_line = print_data.layout[i].get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
# process the line
if line_height > inline_pending_height: inline_pending_height = line_height
if layout_line_idx < print_data.layout_num_lines[i]-1 or print_data.layout_is_new_line[i]:
if curr_y + inline_pending_height > self.page_height:
print_data.page_breaks.append(inline_starter)
#print "added page break", inline_starter
curr_y = 0
if inline_pending_height > self.page_height:
if self.pixbuf_table_codebox_vector[i-1][0] == "codebox"\
and codebox_height > self.page_height:
self.codebox_long_split(i-1, context, print_data)
exit_ok = False
break # go to a new main loop
elif self.pixbuf_table_codebox_vector[i-1][0] == "table"\
and table_height > self.page_height:
self.table_long_split(i-1, context, print_data)
exit_ok = False
break # go to a new main loop
curr_y += inline_pending_height
print_data.all_lines_y.append(curr_y)
#print "added line y <%s> (%s, %s)" % (curr_y, i, layout_line_idx)
inline_pending_height = 0 # reset the pending elements line to append
inline_starter = [i, layout_line_idx+1]
layout_line_idx += 1
if not exit_ok: break # go to a new main loop
# pixbuf or table or codebox
if i < len(print_data.layout) - 1: # the latest element is supposed to be text
if self.pixbuf_table_codebox_vector[i][0] == "pixbuf":
pixbuf = self.pixbuf_table_codebox_vector[i][1][1]
pixbuf_was_resized = False
pixbuf_width = pixbuf.get_width()
pixbuf_height = pixbuf.get_height()
if pixbuf_width > self.page_width:
image_w_h_ration = float(pixbuf_width)/pixbuf_height
image_width = self.page_width
image_height = image_width / image_w_h_ration
pixbuf = pixbuf.scale_simple(int(image_width), int(image_height), gtk.gdk.INTERP_BILINEAR)
pixbuf_width = pixbuf.get_width()
pixbuf_height = pixbuf.get_height()
pixbuf_was_resized = True
if pixbuf_height > (self.page_height-self.layout_newline_height-cons.WHITE_SPACE_BETW_PIXB_AND_TEXT):
image_w_h_ration = float(pixbuf_width)/pixbuf_height
image_height = self.page_height-self.layout_newline_height-cons.WHITE_SPACE_BETW_PIXB_AND_TEXT
image_width = image_height * image_w_h_ration
pixbuf = pixbuf.scale_simple(int(image_width), int(image_height), gtk.gdk.INTERP_BILINEAR)
pixbuf_width = pixbuf.get_width()
pixbuf_height = pixbuf.get_height()
pixbuf_was_resized = True
if pixbuf_was_resized:
any_image_resized = True
self.pixbuf_table_codebox_vector[i][1][1] = pixbuf
pixbuf_height = pixbuf.get_height() + cons.WHITE_SPACE_BETW_PIXB_AND_TEXT
if inline_pending_height < pixbuf_height: inline_pending_height = pixbuf_height
elif self.pixbuf_table_codebox_vector[i][0] == "table":
table = self.pixbuf_table_codebox_vector[i][1][1]
table_layouts = self.get_table_layouts(context, table)
table_grid = self.get_table_grid(table_layouts, table['col_min'])
table_height = self.get_table_height_from_grid(table_grid)
if inline_pending_height < table_height+BOX_OFFSET: inline_pending_height = table_height+BOX_OFFSET
elif self.pixbuf_table_codebox_vector[i][0] == "codebox":
codebox_dict = self.pixbuf_table_codebox_vector[i][1][1]
codebox_layout = self.get_codebox_layout(context, codebox_dict)
codebox_height = self.get_height_from_layout(codebox_layout)
if inline_pending_height < codebox_height+BOX_OFFSET: inline_pending_height = codebox_height+BOX_OFFSET
if exit_ok: break
operation.set_n_pages(len(print_data.page_breaks) + 1)
if any_image_resized:
self.dad.statusbar.pop(self.dad.statusbar_context_id)
self.dad.statusbar.push(self.dad.statusbar_context_id, _("Warning: One or More Images Were Reduced to Enter the Page")+" (%sx%s)" % (int(self.page_width), int(self.page_height)))
def on_draw_page_text(self, operation, context, page_nr, print_data):
"""This Function is Called For Each Page Set in on_begin_print_text"""
if page_nr == 0: start_line_num = [0, 0] # layout num, line num
else: start_line_num = print_data.page_breaks[page_nr - 1]
#print "start_line_num", start_line_num
if page_nr < len(print_data.page_breaks): end_line_num = print_data.page_breaks[page_nr]
else: end_line_num = [len(print_data.layout)-1, print_data.layout_num_lines[-1]]
#print "end_line_num", end_line_num
cairo_context = context.get_cairo_context()
cairo_context.set_source_rgb(0.5, 0.5, 0.5)
cairo_context.set_font_size(12)
page_num_str = "%s/%s" % (page_nr+1, operation.get_property("n-pages"))
cairo_context.move_to(self.page_width/2, self.page_height+17)
cairo_context.show_text(page_num_str)
curr_x = float(0)
i = start_line_num[0]
layout_line_idx = start_line_num[1]
while i <= end_line_num[0]:
# text
cairo_context.set_source_rgb(0, 0, 0)
if i > start_line_num[0]: layout_line_idx = 0 # reset line idx
while layout_line_idx < print_data.layout_num_lines[i]:
layout_line = print_data.layout[i].get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
# process the line
if line_width > 0:
#print "text (%s, %s) to (%s, %s)" % (line_width, line_height, curr_x, print_data.all_lines_y[self.y_idx])
cairo_context.move_to(curr_x, print_data.all_lines_y[self.y_idx])
cairo_context.show_layout_line(layout_line)
curr_x += line_width
if layout_line_idx < print_data.layout_num_lines[i]-1 or print_data.layout_is_new_line[i]:
curr_x = 0.0
self.y_idx += 1
#print "new index value <%s> (%s, %s)" % (self.y_idx, i, layout_line_idx)
layout_line_idx += 1
if i >= end_line_num[0] and layout_line_idx >= end_line_num[1]: return
# pixbuf or table or codebox
if i < len(print_data.layout) - 1: # the latest element is supposed to be text
if self.pixbuf_table_codebox_vector[i][0] == "pixbuf":
pixbuf = self.pixbuf_table_codebox_vector[i][1][1]
pixbuf_width = pixbuf.get_width()
pixbuf_height = pixbuf.get_height()
#print "pixbuf (%s, %s) to (%s, %s)" % (pixbuf_width, pixbuf_height, curr_x, print_data.all_lines_y[self.y_idx]-pixbuf_height)
cairo_context.set_source_pixbuf(pixbuf, curr_x, print_data.all_lines_y[self.y_idx] - pixbuf_height)
cairo_context.paint()
curr_x += pixbuf_width
elif self.pixbuf_table_codebox_vector[i][0] == "table":
table = self.pixbuf_table_codebox_vector[i][1][1]
table_layouts = self.get_table_layouts(context, table)
table_grid = self.get_table_grid(table_layouts, table['col_min'])
table_width = self.get_table_width_from_grid(table_grid)
table_height = self.get_table_height_from_grid(table_grid)
self.table_draw_grid(cairo_context,
table_grid,
curr_x,
print_data.all_lines_y[self.y_idx] - table_height,
table_width,
table_height)
self.table_draw_text(cairo_context,
table_grid,
table_layouts,
curr_x,
print_data.all_lines_y[self.y_idx] - table_height)
curr_x += table_width
elif self.pixbuf_table_codebox_vector[i][0] == "codebox":
codebox_dict = self.pixbuf_table_codebox_vector[i][1][1]
codebox_layout = self.get_codebox_layout(context, codebox_dict)
codebox_height = self.get_height_from_layout(codebox_layout)
codebox_width = self.get_width_from_layout(codebox_layout)
#print "codebox (%s, %s) to (%s, %s)" % (codebox_width, codebox_height, curr_x, print_data.all_lines_y[self.y_idx]-codebox_height)
self.codebox_draw_box(cairo_context,
curr_x,
print_data.all_lines_y[self.y_idx] - codebox_height,
codebox_width,
codebox_height)
self.codebox_draw_code(cairo_context,
codebox_layout,
curr_x,
print_data.all_lines_y[self.y_idx] - codebox_height)
curr_x += codebox_width
i += 1 # layout increment
def get_codebox_layout(self, context, codebox_dict):
"""Return the CodeBox Layout"""
layout = context.create_pango_layout()
layout.set_font_description(self.codebox_font)
if codebox_dict['width_in_pixels']: codebox_width = codebox_dict['frame_width']
else: codebox_width = self.text_window_width*codebox_dict['frame_width']/100
if codebox_width > self.page_width: codebox_width = self.page_width
layout.set_width(int(codebox_width*pango.SCALE))
layout.set_wrap(pango.WRAP_WORD_CHAR)
layout.set_markup(codebox_dict['fill_text'])
return layout
def get_height_from_layout(self, layout):
"""Returns the Height given the Layout"""
height = 0
num_layout_lines = layout.get_line_count()
for layout_line_idx in range(num_layout_lines):
layout_line = layout.get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
height += line_height
return height + 2*cons.GRID_SLIP_OFFSET
def get_width_from_layout(self, layout):
"""Returns the Height given the Layout"""
width = 0
num_layout_lines = layout.get_line_count()
for layout_line_idx in range(num_layout_lines):
layout_line = layout.get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
if line_width > width: width = line_width
return width + 2*cons.GRID_SLIP_OFFSET
def get_table_layouts(self, context, table):
"""Return the Table Cells Layouts"""
table_layouts = []
for i, table_row in enumerate(table['matrix']):
table_layouts.append([])
for j, cell_text in enumerate(table_row):
layout = context.create_pango_layout()
layout.set_font_description(self.pango_font)
cell_text = cgi.escape(cell_text)
if i == 0: cell_text = "<b>" + cell_text + "</b>"
layout.set_width(int(table['col_max']*pango.SCALE))
layout.set_wrap(pango.WRAP_WORD_CHAR)
layout.set_markup(cell_text)
table_layouts[i].append(layout)
return table_layouts
def layout_line_get_width_height(self, layout_line):
"""Returns Width and Height of a layout line"""
ink_rect, logical_rect = layout_line.get_extents()
lx, ly, lwidth, lheight = logical_rect
return [lwidth / 1024.0, lheight / 1024.0]
def get_table_grid(self, table_layouts, col_min):
"""Returns the Dimensions of Rows and Columns"""
rows_h = [0] * len(table_layouts)
cols_w = [col_min] * len(table_layouts[0])
for i, layout_row in enumerate(table_layouts):
for j, layout_cell in enumerate(layout_row):
cell_height = 0
num_layout_lines = layout_cell.get_line_count()
for layout_line_idx in range(num_layout_lines):
layout_line = layout_cell.get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
cell_height += line_height
if cols_w[j] < line_width: cols_w[j] = line_width
if rows_h[i] < cell_height: rows_h[i] = cell_height
return [rows_h, cols_w]
def get_table_width_from_grid(self, table_grid):
"""Returns the Table Width given the table_grid vector"""
table_width = 0
for col_w in table_grid[1]:
table_width += (col_w + self.table_line_thickness)
return table_width
def get_table_height_from_grid(self, table_grid):
"""Returns the Table Height given the table_grid vector"""
table_height = 0
for row_h in table_grid[0]:
table_height += (row_h + self.table_line_thickness)
return table_height
def codebox_draw_box(self, cairo_context, x0, y0, codebox_width, codebox_height):
"""Draw the CodeBox Box"""
cairo_context.set_source_rgba(0, 0, 0, 0.3)
cairo_context.rectangle(x0, y0, codebox_width, codebox_height)
cairo_context.stroke()
def table_draw_grid(self, cairo_context, table_grid, x0, y0, table_width, table_height):
"""Draw the Table Grid"""
x = x0
y = y0
cairo_context.set_source_rgba(0, 0, 0, 0.3)
# draw lines
cairo_context.move_to(x, y)
cairo_context.line_to(x + table_width, y)
for row_h in table_grid[0]:
y += (row_h + self.table_line_thickness)
cairo_context.move_to(x, y)
cairo_context.line_to(x + table_width, y)
# draw columns
y = y0
cairo_context.move_to(x, y)
cairo_context.line_to(x, y + table_height)
for col_w in table_grid[1]:
x += (col_w + self.table_line_thickness)
cairo_context.move_to(x, y)
cairo_context.line_to(x, y + table_height)
cairo_context.stroke()
def table_draw_text(self, cairo_context, table_grid, table_layouts, x0, y0):
"""Draw the text inside of the Table Cells"""
cairo_context.set_source_rgb(0, 0, 0)
y = y0
for i, row_h in enumerate(table_grid[0]):
x = x0 + cons.GRID_SLIP_OFFSET
for j, col_w in enumerate(table_grid[1]):
layout_cell = table_layouts[i][j]
local_y = y
num_layout_lines = layout_cell.get_line_count()
for layout_line_idx in range(num_layout_lines):
layout_line = layout_cell.get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
cairo_context.move_to(x, local_y + line_height)
local_y += line_height
cairo_context.show_layout_line(layout_line)
x += col_w + self.table_line_thickness
y += row_h + self.table_line_thickness
def codebox_draw_code(self, cairo_context, codebox_layout, x0, y0):
"""Draw the code inside of the Box"""
cairo_context.set_source_rgb(0, 0, 0)
y = y0
num_layout_lines = codebox_layout.get_line_count()
for layout_line_idx in range(num_layout_lines):
layout_line = codebox_layout.get_line(layout_line_idx)
line_width, line_height = self.layout_line_get_width_height(layout_line)
cairo_context.move_to(x0 + cons.GRID_SLIP_OFFSET, y + line_height)
y += line_height
cairo_context.show_layout_line(layout_line)
def table_long_split(self, idx, context, print_data):
"""Split Long Tables"""
table_dict = self.pixbuf_table_codebox_vector[idx][1][1]
table_dict_jolly = copy.deepcopy(table_dict)
partial_table_matrix_vec = []
partial_table_matrix = [copy.deepcopy(table_dict['matrix'][0])]
while len(partial_table_matrix) < len(table_dict['matrix']):
partial_table_matrix.append(copy.deepcopy(table_dict['matrix'][len(partial_table_matrix)]))
table_dict_jolly['matrix'] = partial_table_matrix
table_layouts = self.get_table_layouts(context, table_dict_jolly)
table_grid = self.get_table_grid(table_layouts, table_dict_jolly['col_min'])
table_height = self.get_table_height_from_grid(table_grid)
if table_height+BOX_OFFSET > (self.page_height-self.layout_newline_height):
# this slot is done
partial_table_matrix.pop()
partial_table_matrix_vec.append(partial_table_matrix)
table_dict['matrix'] = table_dict['matrix'][len(partial_table_matrix):]
table_dict['matrix'].insert(0, copy.deepcopy(partial_table_matrix[0]))
partial_table_matrix = [copy.deepcopy(table_dict['matrix'][0])]
# this is the last piece
partial_table_matrix_vec.append(partial_table_matrix)
for i, element in enumerate(partial_table_matrix_vec):
#print i, element
if i == 0: table_dict['matrix'] = element[1:] + [element[0]]
else:
index = idx+i
# add a newline
print_data.text.insert(index, cons.CHAR_NEWLINE)
# add a codebox
new_table_dict = copy.deepcopy(table_dict)
new_table_dict['matrix'] = element[1:] + [element[0]]
pixbuf_table_codebox_element = ["table", [None, new_table_dict, None]]
self.pixbuf_table_codebox_vector.insert(index, pixbuf_table_codebox_element)
def codebox_long_split(self, idx, context, print_data):
"""Split Long CodeBoxes"""
codebox_dict = self.pixbuf_table_codebox_vector[idx][1][1]
original_splitted_pango = codebox_dict['fill_text'].split(cons.CHAR_NEWLINE)
for i, element in enumerate(original_splitted_pango):
last_close = element.rfind("</span")
last_open = element.rfind("<span")
if last_close < last_open:
non_closed_span = original_splitted_pango[i][last_open:]
end_non_closed_span_idx = non_closed_span.find(">")
non_closed_span = non_closed_span[:end_non_closed_span_idx+1]
original_splitted_pango[i] += "</span>"
original_splitted_pango[i+1] = non_closed_span + original_splitted_pango[i+1]
splitted_pango = []
codebox_dict_jolly = copy.deepcopy(codebox_dict)
partial_pango_vec = []
partial_pango = ""
partial_pango_old = ""
while len(splitted_pango) < len(original_splitted_pango):
splitted_pango.append(original_splitted_pango[len(splitted_pango)])
if partial_pango: partial_pango_old = partial_pango
partial_pango = cons.CHAR_NEWLINE.join(splitted_pango)
codebox_dict_jolly['fill_text'] = partial_pango
codebox_layout = self.get_codebox_layout(context, codebox_dict_jolly)
codebox_height = self.get_height_from_layout(codebox_layout)
if codebox_height+BOX_OFFSET > (self.page_height-self.layout_newline_height):
# this slot is done
partial_pango_vec.append(partial_pango_old)
original_splitted_pango = original_splitted_pango[len(splitted_pango)-1:]
splitted_pango = []
# this is the last piece
partial_pango_vec.append(partial_pango)
for i, element in enumerate(partial_pango_vec):
if i == 0: codebox_dict['fill_text'] = element
else:
index = idx+i
# add a newline
print_data.text.insert(index, cons.CHAR_NEWLINE)
# add a codebox
new_codebox_dict = copy.deepcopy(codebox_dict)
new_codebox_dict['fill_text'] = element
pixbuf_table_codebox_element = ["codebox", [None, new_codebox_dict, None]]
self.pixbuf_table_codebox_vector.insert(index, pixbuf_table_codebox_element)
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